Publication Date
1985
Location
Kyoto Japan
Description
In order to elucidate plant-soil relationship in natural habitat of wild soybean ( Glycine soja) dry matter yield, number and weight of root nodule mineral content at flowering stage, seed yield and its component, seed protein content and soil chemical characterstics were investigated. Dry matter yield per plant showed significant positive correlation with seed yield and no. of branch per plant. Seed yield greatly depended its components expects no. of seed per pod. Dry matter yield had significant positive correlation with P and pH of soil, K,P and N in plant, and negative with Mg in plant. Seed yield had significant positive correlation with P, Mg/(K +Ca), pH of soil, and K.P.N, K/(Ca+Mg) in plant, and negative with Ca/Mg of soil and Mn in plant. Phosphorus in plant depended of soil P. Seed protein content showed positive correlation with copper fraction of micronutrient and Kl( Ca+ Mg) in plant. Dry weight of root nodule per plant depended on organic matter content apd pH of soil, was closely related to K, K/(Ca+Mg), Na, and Cu/Zn in plant and contributed to seed yield, seed protein and no. of branch. Number of root nodule per plant contributed to N in plant and seed yield, dry matter yield and no. of branch, and depended on Fe/Mn, P, K, Fe, in plant.
Citation
Park, H; Hur, S N.; and Kim, U J., "Growth and Minerals of Wild Soybean and their Relations to Soil" (1985). IGC Proceedings (1985-2023). 12.
(URL: https://uknowledge.uky.edu/igc/1985/ses6/12)
Included in
Agricultural Science Commons, Agronomy and Crop Sciences Commons, Plant Biology Commons, Plant Pathology Commons, Soil Science Commons, Weed Science Commons
Growth and Minerals of Wild Soybean and their Relations to Soil
Kyoto Japan
In order to elucidate plant-soil relationship in natural habitat of wild soybean ( Glycine soja) dry matter yield, number and weight of root nodule mineral content at flowering stage, seed yield and its component, seed protein content and soil chemical characterstics were investigated. Dry matter yield per plant showed significant positive correlation with seed yield and no. of branch per plant. Seed yield greatly depended its components expects no. of seed per pod. Dry matter yield had significant positive correlation with P and pH of soil, K,P and N in plant, and negative with Mg in plant. Seed yield had significant positive correlation with P, Mg/(K +Ca), pH of soil, and K.P.N, K/(Ca+Mg) in plant, and negative with Ca/Mg of soil and Mn in plant. Phosphorus in plant depended of soil P. Seed protein content showed positive correlation with copper fraction of micronutrient and Kl( Ca+ Mg) in plant. Dry weight of root nodule per plant depended on organic matter content apd pH of soil, was closely related to K, K/(Ca+Mg), Na, and Cu/Zn in plant and contributed to seed yield, seed protein and no. of branch. Number of root nodule per plant contributed to N in plant and seed yield, dry matter yield and no. of branch, and depended on Fe/Mn, P, K, Fe, in plant.
